Method and charging bench via magnetic coupling

1. A method for charging via magnetic coupling performing functions of electrical charging of a portable electronic device, called a secondary device, by a charging device or bench, called a primary device, comprising at least two coils, the at least two coils being electrically out of phase, and of communicating information originating from the secondary device to the primary device, comprising: detecting the secondary device then located via the emission of a test signal by at least one coil of the primary device, and receiving, in return, of a signal carrying information data by at least one coil; comparing an amplitude of the signal or signals received to at least one reference threshold; in a selection phase, selecting the coil of the primary device closest to the secondary device and then switching, by way of mode selecting means, into a mode for charging via transmission of an energy flux; and in the selection phase, selecting the coil of the primary device located proximate this charging coil and then switching, by way of mode selecting means, into a mode for communicating information data so as to actuate instructions contained in these data, each coil being able to function in a mode for communicating information data or in a mode for charging via transmission of an energy flux.

2. The charging method as claimed in claim 1 , wherein the energy transmission is achieved via inductive coupling between the at least two coils of the primary device and at least one coil of the secondary device under magnetic resonance conditions.

3. The charging method as claimed in claim 1 , in which the test signal consists of a series of brief pulses emitted by a smaller number of coils regularly distributed in the array of coils of the primary device.

4. The detection method as claimed in claim 1 , in which a test signal is emitted at regular intervals during charging in order to verify the amplitude of the return signal received by the coils, and to switch the operating modes of the coils depending on a new location of the secondary device when the amplitude of the signal received by the charging coil is compared to the reference threshold.

5. The detection method as claimed in claim 1 , in which, when a plurality of secondary devices to be charged are present, the operations of detection, location, and charge/communication selection are carried out for each secondary device.

6. A charging bench able to implement the method as claimed in claim 1 , comprising: means for supplying electrical power, a surface for holding secondary devices to be charged, an array of coils consisting of at least two coils, the at least two coils being electrically out of phase at least one microcontroller for processing information data originating from at least one secondary device, at least one charging regulator, and the mode selecting means connected, for each coil, to the microcontroller and the regulator in a circuit, said mode selecting means being a multipath communication selector, the output of which is connected to one end of each coil and the input of which is connected to the microcontroller in order to provide information data, and in a multipath charging selector, the output of which is connected to the other end of each coil and the input of which is connected to the charging regulator in order to enable emission of a flux of electrical energy.

7. The charging bench as claimed in claim 6 , in which the coils are at least three in number and arranged in at least two superposed planes that partially overlap one another.

8. The charging bench as claimed in claim 6 , in which the coils are mounted in an arrangement chosen from an arrangement in a line or network, especially a matrix, or spiral or circle.

9. The charging bench as claimed in claim 7 , in which the coils are mounted in an arrangement chosen from an arrangement in a line or network, especially a matrix, or spiral or circle.

10. A method for charging via magnetic coupling performing functions of electrical charging of a portable electronic device, called a secondary device, by a charging device or bench, called a primary device, comprising at least two coils, the at least two coils being electrically out of phase, and of communicating information originating from the secondary device to the primary device, comprising: detecting the secondary device then located via the emission of a test signal by at least one coil of the primary device, and receiving, in return, of a signal carrying information data by at least one coil; comparing an amplitude of the signal or signals received to at least one reference threshold; in a selection phase, selecting the coil of the primary device closest to the secondary device and then switching, by way of a mode selector, into a mode for charging via transmission of an energy flux; and in the selection phase, selecting the coil of the primary device located proximate this charging coil and then switching, by the mode selector, into a mode for communicating information data so as to actuate instructions contained in these data, each coil being able to function in a mode for communicating information data or in a mode for charging via transmission of an energy flux.

11. The charging method as claimed in claim 10 , wherein the energy transmission is achieved via inductive coupling between the at least two coils of the primary device and at least one coil of the secondary device under magnetic resonance conditions.

12. The charging method as claimed in claim 10 , in which the test signal consists of a series of brief pulses emitted by a smaller number of coils regularly distributed in the array of coils of the primary device.

13. The detection method as claimed in claim 10 , in which a test signal is emitted at regular intervals during charging in order to verify the amplitude of the return signal received by the coils, and to switch the operating modes of the coils depending on a new location of the secondary device when the amplitude of the signal received by the charging coil is compared to the reference threshold.

14. The detection method as claimed in claim 10 , in which, when a plurality of secondary devices to be charged are present, the operations of detection, location, and charge/communication selection are carried out for each secondary device.

15. A charging bench able to implement the method as claimed in claim 10 , comprising: an electrical power supply, a surface for holding secondary devices to be charged, an array of coils consisting of the at least two coils, the at least two coils being electrically out of phase at least one microcontroller for processing information data originating from at least one secondary device, at least one charging regulator, and the mode selector connected, for each coil, to the microcontroller and the regulator in a circuit, said mode selector being a multipath communication selector, the output of which is connected to one end of each coil and the input of which is connected to the microcontroller in order to provide information data, and a multipath charging selector, the output of which is connected to the other end of each coil and the input of which is connected to the charging regulator in order to enable emission of a flux of electrical energy.

16. The charging bench as claimed in claim 15 , in which the coils are at least three in number and arranged in at least two superposed planes that partially overlap one another.

17. The charging bench as claimed in claim 15 , in which the coils are mounted in an arrangement chosen from an arrangement in a line or network, especially a matrix, or spiral or circle.

18. The charging bench as claimed in claim 16 , in which the coils are mounted in an arrangement chosen from an arrangement in a line or network, especially a matrix, or spiral or circle.